Influence of Large-Scale Orderly Charging of Electric Vehicle on Residential Distribution Network

doi:10.3969/j.issn.1000-7229.2015.07.013

Abstract

Abstract:

A large number of electric vehicles （EVs） accessing to distribution network， is bound to cause a great influence on distribution network. Based on Monte Carlo simulation method， this paper calculated the charging load. According to the typical structure of actual distribution network in Beijing， this paper firstly analyzed the impact of EV’s orderly charging on power grid under different permeability， and then presented orderly charging method with grid-user side two-way charging as target. The proposed orderly charging method was compared with disorder charging method， whose results showed that the orderly charging could play an important role in load shifting.

Key words: electric vehicle, charging load, distribution network, orderly charging

CLC Number:

TM 711

GUO Chunlin，YU Peng， FU Jinyan， YANG Wanqing， JIA Dongming. Influence of Large-Scale Orderly Charging of Electric Vehicle on Residential Distribution Network[J]. ELECTRIC POWER CONSTRUCTION, 2015, 36(7): 94-100.

References

［1］马钧，张星宇.中国电动汽车出行情景研究［J］. 汽车工程师， 2013（4）: 13-15.
Ma jun， Zhang Xingyu. Study on China electric vehicle mobility scenario［J］.Auto Engineer， 2013（4） : 13-15.
［2］杨少兵，吴命利，姜久春，等. 电动汽车充电站负荷建模方法［J］. 电网技术， 2013， 37（5）: 1190-1195.
Yang Shaobing， Wu Mingli， Jiang Jiuchun， et al.An approach for load modeling of electric vehicle charging station［J］.Power System Technology，2013（5）:1190-1195.
［3］杨波，陈卫，文明浩，等. 电动汽车充电站的概率负荷建模［J］. 电力系统自动化，2014，38（16）:67-73.
Yang Bo，Chen Wei，Wen Minghao et al.Probabilistic load modeling of electric vehicle charging stations［J］.Automation of Electric Power Systems，2014，38（16）:67-73.
［4］Fernandez L P， Román T G S， Cossent R， et al. Assessment of the impact of plug-in electric vehicles on distribution networks［J］. Power Systems， IEEE Transactions on， 2011， 26（1）: 206-213.
［5］夏娟娟，孙春顺，张媛，等. 电动汽车充电功率需求及其对电网负荷曲线的影响［J］. 电力学报， 2014， 29（1）:20-23.
Xia Juanjuan，Sun Chunshun， Zhang Yuan， et al.Charging power demand of electric vehicles and their impacts on load curve of power grids［J］.Journal of Electric Power，2014，29（1）:20-23.
［6］李秋硕，肖湘宁，郭静，等. 电动汽车有序充电方法研究［J］. 电网技术， 2012， 36（12）: 32-38.
Li Qiushuo， Xiao Xiangning， Guo Jing， et al. Research on scheme for ordered charging of electric vehicles［J］.Power System Technology，2012，36（12）:32-38.
［7］徐智威，胡泽春，宋永华，等. 基于动态分时电价的电动汽车充电站有序充电策略［J］. 中国电机工程学报， 2014， 34（22）: 3638-3646.
Xu Zhiwei， Hu Zechun， Song Yonghua， et al.Coordinated charging strategy for PEV charging stations based on dynamic time-of-use tariffs［J］.Proceedings of the CSEE，2014，34（22）:3638-3646.
［8］罗卓伟，胡泽春，宋永华，等. 换电模式下电动汽车电池充电负荷建模与有序充电研究［J］. 中国电机工程学报， 2012， 32（31）: 1-10.
Luo Zhuowei， Hu Zechun， Song Yonghua， et al.Study on charging load modeling and coordinated charging of electric vehicles under battery swapping modes［J］.Proceedings of the CSEE，2012，32（31）:1-10.
［9］葛少云，郭建祎，刘洪，等. 计及需求侧响应及区域风光出力的电动汽车有序充电对电网负荷曲线的影响［J］. 电网技术， 2014， 38（7）: 1806-1811.
Ge Shaoyun， Guo Jianyi， Liu Hong， et al. Impacts of electric vehicle’s ordered charging on power grid load curve considering demand side response and output of regional wind farm and photovoltaic generation［J］. Power System Technology， 2014， 38 （7） : 1806-1811.
［10］羌嘉曦，敖国强，何建辉，等. 电动汽车动力电池特性仿真系统［J］. 上海交通大学学报， 2009， 43（8）: 1196-1200.
Qiang Jiaxi， Ao Guoqiang， He jianjun， et al. Research on the battery simulation system of electric vehicles［J］. Journal of Shanghai Jiaotong University， 2009， 43 （8） : 1196-1200.
［11］田立亭，史双龙，贾卓. 电动汽车充电功率需求的统计学建模方法［J］. 电网技术， 2010， 34（11）: 126-130.
Tian Liting， Shi Shaunglong， Jia Zhuo. A statistical model for charging power demand of electric vehicles［J］. Power System Technology， 2010， 34 （11） : 126-130.
［12］王晶，翁国庆，张有兵，等.电力系统matlab/simulink仿真与应用［M］. 西安：西安电子科技大学出版社， 2008.
［13］高赐威，张亮. 电动汽车充电对电网影响的综述［J］. 电网技术， 2011， 35（2）: 127-131.
Gao Ciwei， Zhang Liang.A survey of influence of electrics vehicle charging on power grid［J］.Power System Technology，2011（2）:127-131.
［14］徐智威，胡泽春，宋永华，等. 充电站内电动汽车有序充电策略［J］. 电力系统自动化， 2012， 36（11）: 38-43.
Xu Zhiwei，Hu Zechun， Song Yonghua， et al.Coordinated charging of plug-in electric vehicles in charging stations［J］.Automation of Electric Power Systems，2012，36（11）:38-43.

[1]	ZHANG Weiguo, CHEN Liangliang, CHENG Haisheng, FU Rong, JI Juan. Elastic Load Scheduling Based on Awareness of Electric Vehicle Power Supply Resources [J]. ELECTRIC POWER CONSTRUCTION, 2020, 41(8): 48-56.
[2]	WU Dingjie, LI Xiaolu. Charging Load Prediction of Electric Vehicle According to Real-Time Travel Demand and Traffic Conditions [J]. ELECTRIC POWER CONSTRUCTION, 2020, 41(8): 57-67.
[3]	HUANG Jiaqi， ZHANG Yuwei， HE Jifeng1， YAN Jiong， ZHU Xu， YANG Jun. A Robust Expansion Planning Method for Distribution Networks Considering Extreme Scenarios [J]. Electric Power Construction, 2020, 41(7): 67-74.
[4]	TAN Zhongfu，TAN Caixia，PU Lei，YANG Jiacheng. Two-Layer Game Model of Virtual Power Plant Applying CIQPSO Algorithm [J]. Electric Power Construction, 2020, 41(6): 9-17.
[5]	HU Jue， WEI Gang， YUAN Hongtao， LUO Zhigang. Modeling of EV Charging-Swapping-Storage Integrated Station [J]. Electric Power Construction, 2020, 41(6): 44-51.
[6]	LIU Hui， XIE Liangfeng， XIE Haimin， YANG Yude， QIN Zhijun. Network Loss Evaluation of Power Systems Considering Participation of Electric Vehicles in AGC [J]. Electric Power Construction, 2020, 41(6): 52-59.
[7]	GAO Chong， ZENG Guangxuan， ZHANG Junxiao， CAO Huazhen，TANG Junxi，YU Tao. Reliability Assessment of Distribution Network Cyber-Physical System Using Goal-Oriented Method [J]. Electric Power Construction, 2020, 41(5): 58-65.
[8]	ZHANG Zhirong， QIU Xiaoyan， SUN Xu， REN Hao， ZHANG Mingke. Economic Optimal Scheduling of AC/DC Distribution Network Coordinating Flexible Load and Energy Storage Systems#br# [J]. Electric Power Construction, 2020, 41(5): 116-123.
[9]	ZHOU Bin，ZHANG Weiguo， CUI Wenjia， MAO Dongyu， CHEN Zhong. Optimization Method for Electric Vehicle Charging/Discharging Considering Forewarning Load [J]. Electric Power Construction, 2020, 41(4): 10-21.
[10]	ZHAO Wenhui， ZHANG Jiuyang， GAO Jiaoqian，SONG Yajun. Discharge Pricing Model of Electric Vehicles Considering Dynamic Electricity and Infinite Game [J]. Electric Power Construction, 2020, 41(4): 30-37.
[11]	ZHONG Shiyuan, XIONG Ning, ZHANG Chenghao, LI Yingxue, SHU Jiao1 ZHANG Peng. A Collaborative Planning Method for Distribution Network Structure and Distribution Automation Terminal [J]. Electric Power Construction, 2020, 41(3): 23-30.
[12]	LIU Zifa, WANG Xinyue,YU Hanxiao, GAO Jianyu, WU Gang. Interactive Power Pricing Strategy and Method for Real-Time Power Market with Multi-Microgrid Connection [J]. Electric Power Construction, 2020, 41(3): 39-46.
[13]	SHI Jingjian， ZHOU Wentao， ZHANG Ning， CHEN Qiao， LIU Jintao，CAO Zhenbo， CHEN Yi， SONG Hang， LIU Youbo. Deep Reinforcement Learning Algorithm of Voltage Regulation in Distribution Network with Energy Storage System [J]. Electric Power Construction, 2020, 41(3): 71-78.
[14]	SHEN Qingwen， CHENG Ruofa， FU Xin. Optimization Configuration Method of Distributed Power Supply Considering Vulnerability Index [J]. Electric Power Construction, 2020, 41(3): 54-61.
[15]	REN Junzhi， CHEN Jian， JIANG Xinyi， SUN Xuri， ZHANG Song， LI Wensheng. Post-Disaster Recovery Strategy of Resilient Distribution Network Considering Mobile Energy Storage System and Network Reconfiguration [J]. Electric Power Construction, 2020, 41(3): 86-92.